Ph.D. in Electrical Engineering PHD Program By The University of Texas at Arlington |Top Universities
Subject Ranking

# 451-500QS Subject Rankings

Application Deadline

01 Feb, 2025Application Deadline

Main Subject Area

Engineering - Electrical and ElectronicMain Subject Area

Program overview

Main Subject

Engineering - Electrical and Electronic

Degree

PhD

Study Level

PHD

Study Mode

On Campus

Course offerings in the electrical engineering Ph.D. program provide students the opportunity to broaden and intensify knowledge in a number of areas of electrical engineering. Students, with the aid of a faculty advisor, may plan a program in any one of a number of fields of specialization within electrical engineering or from the offerings of related departments in science and engineering.
Graduate study and research are offered in the areas of:
  1. Digital and Microprocessor/Controller Systems: Digital Signal Processors, Embedded Microcontrollers, Microprocessors, Advanced Microprocessor Systems
  2. Solid-State Devices, Circuits and Systems: Semiconductor Theory, Microwave Devices and Circuits, Analog Electronics
  3. Systems and Controls: Systems, Controls, Manufacturing, Discrete Event Control, Neural and Fuzzy Control, Nonlinear Modern Control, Biomedical Signal Processing and Instrumentation
  4. Electromagnetic Fields and Applications: Remote Sensing, Electromagnetic Fields, Propagation, Scattering, Radiation, and Microwave Systems
  5. Digital Signal and Image Processing: Vision Systems, Neural Networks, Statistical Signal Processing, Nonlinear Image Processing, Virtual Prototyping, and Virtual Environments
  6. Telecommunications and Information Systems: Information Transmission and Communication Systems
  7. Power Systems: Efficient Operation, Generation, Transmission, Distribution, Deregulation
  8. Optical Devices and Systems: Optics, Electro-optics, Diffractive Optics, Nonlinear Optics, and Lasers
  9. Nanotechnology and MEMS - Materials and Devices: Quantum Electronic Devices, Semiconductor Surfaces and Interfaces, Single Electron Devices, Sensors and Detectors, Carbon Nanotube Devices, Noise and Reliability in Nano-electronic Devices, Microactuators, RF MEMS, Polymer Electronics, and Nanophotonics
  10. Renewable Energy Systems and Vehicular Technology: Power Electronics Engineering, Motor Drives, Renewable Energy Systems, Grid-Integration, and Vehicular Power Structures

Program overview

Main Subject

Engineering - Electrical and Electronic

Degree

PhD

Study Level

PHD

Study Mode

On Campus

Course offerings in the electrical engineering Ph.D. program provide students the opportunity to broaden and intensify knowledge in a number of areas of electrical engineering. Students, with the aid of a faculty advisor, may plan a program in any one of a number of fields of specialization within electrical engineering or from the offerings of related departments in science and engineering.
Graduate study and research are offered in the areas of:
  1. Digital and Microprocessor/Controller Systems: Digital Signal Processors, Embedded Microcontrollers, Microprocessors, Advanced Microprocessor Systems
  2. Solid-State Devices, Circuits and Systems: Semiconductor Theory, Microwave Devices and Circuits, Analog Electronics
  3. Systems and Controls: Systems, Controls, Manufacturing, Discrete Event Control, Neural and Fuzzy Control, Nonlinear Modern Control, Biomedical Signal Processing and Instrumentation
  4. Electromagnetic Fields and Applications: Remote Sensing, Electromagnetic Fields, Propagation, Scattering, Radiation, and Microwave Systems
  5. Digital Signal and Image Processing: Vision Systems, Neural Networks, Statistical Signal Processing, Nonlinear Image Processing, Virtual Prototyping, and Virtual Environments
  6. Telecommunications and Information Systems: Information Transmission and Communication Systems
  7. Power Systems: Efficient Operation, Generation, Transmission, Distribution, Deregulation
  8. Optical Devices and Systems: Optics, Electro-optics, Diffractive Optics, Nonlinear Optics, and Lasers
  9. Nanotechnology and MEMS - Materials and Devices: Quantum Electronic Devices, Semiconductor Surfaces and Interfaces, Single Electron Devices, Sensors and Detectors, Carbon Nanotube Devices, Noise and Reliability in Nano-electronic Devices, Microactuators, RF MEMS, Polymer Electronics, and Nanophotonics
  10. Renewable Energy Systems and Vehicular Technology: Power Electronics Engineering, Motor Drives, Renewable Energy Systems, Grid-Integration, and Vehicular Power Structures

Admission Requirements

79+
3.5+
720+
6.5+

01 Feb 2025
Aug

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